M3 0483 Ο 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種「自動定位收線結構」,其主要涉及一 種藉由拉放動作以固定或捲收線材之收線模組,尤指可使線材平 穩地、順利地收納於作動體内之收線模組。 【先前技術】 查’中華民國專利證書號數第414413號,且於的年π月 1曰公告之「收線盒構造之改良」新型專顺針,揭露有一種 收,盒’其主要係由-上蓋、—底蓋、—旋轉座、—旋轉盤體、 -定力彈簣及-固定軸座所城者,_由設置該定力彈菩以達 到將導線收納於受線盒之目的,且由於該定力彈t可提供較為穩 定之收縮張力,故可使得導線不致因張力過緊而造成損壞者,而 減低其制壽命,·再者,該定力彈簧係與該旋轉鐘呈不同轴而 設置’故可減小收線盒厚度大小,以達到便於攜帶之另一目的者。 另,除了前述雙向收線結構之外,—般祕證件夾之收線結 構,係揭露-種單向收線結構,其主要亦滾珠於導執㈣ 動,並配合渦形捲簧而達到線材拉收之功能。 惟’上述結構,具有如下列所述之缺點: ⑴滾珠與齡槽之間賴存在-定_,使得滾珠不能規 則性的在限位槽中移動,容易滑出定位區。 ⑵滾珠在導仙無__軸,將使制形捲簣之彈性 M3 0483 Ο 強度漸漸疲乏,且騎之使用壽命亦會受到影變。 珠在綱無法順利的移動,將造成導執的磨損,使 4禮線效果漸減,並影響使用壽命。 、 離表是,有舰上述㈣品聰生的各躲點,杨之創作人 動定位mr""究力改良,終於成功研發完成本件「自 線結構」案n具功效增進之創作。 【新型内容】 位區麦創作主要在解決習知收線結構,滾動單元易滑出定 ¥致不旎順易收線之問題,並同時解 =法順利在導财肋,致使控線之元件 P作讲目'娜,餘吻而 或捲收,同時使線材糊於作動體嶋動之收線模组。 本創作之次要目的乃係在提供一種與滾動單元相互作用並 具設有一以上缺口之限位槽的收線模組。 作之另-目的乃係在提供—種滾動單元於導執内移動 日守,此導執不易磨損之收線模組。 本創作之再-目的乃係在提供一種導執或限位槽可設 殼體上或作動體上之收線模組。 本創作之又一目的乃係在提供一種結構簡單之收線模組。 本創作之又目的乃係在提供一種操作時較不影響線材使 M304830 用壽命之收線模組。M3 0483 Ο VIII, new description: [New technical field] This creation department is about an "automatic positioning and receiving structure", which mainly relates to a wire take-up module for fixing or winding a wire by a pulling action. In particular, the wire take-up module that allows the wire to be smoothly and smoothly stored in the operating body. [Prior Art] Checking the 'Republic of China Patent Certificate No. 414413, and the new specialization needle for the improvement of the structure of the wire-receiving box announced in the year of January 曰, reveals that there is a kind of box, which is mainly composed of - upper cover, bottom cover, - rotary seat, - rotating disk body, - fixed force magazine and - fixed axle seat city, _ by setting the force of the force to achieve the purpose of storing the wire in the wire box, Moreover, since the constant force bomb t can provide a relatively stable contraction tension, the wire can be prevented from being damaged due to the tension being too tight, and the life of the system can be reduced. Furthermore, the constant force spring system and the rotating clock are not Coaxial setting - so that the thickness of the wire box can be reduced to achieve another purpose of portability. In addition, in addition to the aforementioned two-way wire-receiving structure, the wire-retracting structure of the general-purpose document holder is disclosed as a one-way wire-receiving structure, which mainly moves the ball in the guide (four) and cooperates with the scroll coil spring to reach the wire. Pull the function. However, the above structure has the following disadvantages: (1) The presence and absence of the ball between the ball and the age groove makes it impossible for the ball to move in the limit groove regularly, and it is easy to slide out of the positioning area. (2) The ball has no __ axis in the guide, which will make the elasticity of the shape roll. M3 0483 Ο The strength is gradually tired, and the service life of the ride will be affected. The inability of the bead to move smoothly in the class will cause the wear and tear of the guide, which will reduce the effect of the 4 courtesy and affect the service life. The departure from the table is that there are some hiding points of the above-mentioned (four) Pin Congsheng of the ship. Yang's creator has moved the mr"" to improve the strength, and finally successfully developed the "self-line structure" case. [New content] The creation of the wheat area is mainly to solve the problem of the structure of the collection line. The rolling unit is easy to slide out and the problem is not easy to take over, and at the same time, the solution is smooth, and the components of the control line are caused. P is a lecture, 'Na, after the kiss or roll, while the wire is glued to the moving body to lift the line module. The secondary purpose of this creation is to provide a take-up module that interacts with the rolling unit and has a limit slot with more than one notch. The other purpose is to provide a rolling unit that moves in the guide, and the guide is not easy to wear. The purpose of this creation is to provide a take-up module for a guide or limit slot that can be placed on the housing or on the actuator. Another object of the present invention is to provide a winding module with a simple structure. The purpose of this creation is to provide a take-up module that does not affect the wire life of the M304830 during operation.
設有限位槽,且舰位射段纽兩端末各設有切口,以供滾動 單元於限位槽内穩定地往復滾動, 述導軌亦可設於下殼體上,前述砰 滾動,並達方便收藏整理線材。且前 前述限位槽亦可設於作動體上。 本創作之上述目的及其結構與魏上㈣性,將依據所附圖 式之較佳實施例予以說明。 【實施方式】 本創作係提供一種「自動定位收線結構」,請參閱第1至4G 圖,係為本創作中導執設於下殼體上且限位槽設於作動體上之較 佳實施例,如第1及2圖所示,其主要包含有上殼體1彳、第一 彈性單元12、滾動單元14、線材18、作動體15及下殼體16。 該上殼體11上設有第一定位部111,該下殼體16上設有可 供滾動單元14移動之導軌161,其中該導執161具設有定位區 161a、内軌區161b及外執區161c,且内執區161b及外執區 之間的適當位置具設有變位區161d,而定位區161a則與 内執區161b相接設。 請參閱第1及2圖,該作動體15上包含有第二定位部151、 M3 0483 Ο 限位槽152,其中第二定位部151係供第一彈性單元12 一端固 疋’第-弹性皁TL 12之另一端則與上殼體η之第一定位部… 相固定。該限位槽152中段處及兩端末各設有切口(152a、152b、 152c),則共滾動單元14於限位槽152内穩定地彳 睛翏閱第2及3圖,如圖所示,將線材18固定於作動體 周圍,再將滚動單元14置於限位槽152中,當作動體扬與下 殼體16即將相互接合時,滾動單元14必須置入下殼體16之導 執161内’最後再將上殼體Ή與下殼體16相互固接。 。月再荼閱第1及2 ®,如圖所示,此限位槽152上所開設之 切口 (152a、152b、152c)皆具有非常重要的功能,其中切口脱匕 的特性在於:當滾動單元14在下殼體16之導執161中滾動而 向限位彳0 152頂抵4 ’該切口咖兩側的板體會同時提供兩個 /斗向上的反作用力’而這兩個不同方向的作用力將滾動單元14 朝下殼體16之導軌彳61概,目的在於使滾鮮元14規則性 的私動思即限制滾動單元14僅能在限位槽152内往復的運動, 並使前述兩個不同方向的_力隨著導軌161 ‘f曲的程度,調整 ί·生的把以反作用力’以確保滾鱗元14僅能在限位槽1泣與導 執161之間穩定的移動;而切口(i52a、152〇的特性在提供前述 兩们不同方向的作用力所能施以反作用力的程度及容許滾動單 二14向限位槽152頂抵的程度,意即當滾動單元μ通過變位 品d或進入疋位區161a或離開定位區161a的瞬間,可允許 滾動單it 14林麟_ 161的雜下賤職,此時前述切 M304830 口 152b兩側的板體將藉由切口(152a、152c)傾斜一具有緩衝效 果的角度,而控制此角度的變化,係透過切口(152a、152c)的長 短來調整。 另,前述切u 152b兩侧的板體所施以之反作用力為一種彈 f生力故滾動單元14在導執161中移動時,不會對導執161產 生磨損而疋產生頓點阻力的現象,故當滾動單元Μ在進入變 ,區161d __位區161d的綱其支撐彻力會隨著滚動 單元14的運動狀態而加以調整。 基此上述内谷將使得本創作在下列操作過程中順利的達到 固定或捲收之目的。 (a)本創作之拉開過程一 ❾閱第1 2及4A圖’如圖所示,當本創作兩侧之線材 18向外拉開帶動作動體15逆時針旋轉的同時,滚動單元μ在 内執區161b移動。 (D)本創作之拉開過程二 請參閱第1、2及4B圖,如同仏一 如圖所不,當本創作兩側之線材 18繼續向外拉開帶動作動體π w拉 針旋轉的同時,滾動單元14 由内執區161b通過變位區κιd谁 ια進入外執區161c(此時由於作動 體15之限位槽152發生作用,使承 _ 尺展動早凡14得以順利的在莫 執161内移動)。 當本創作兩側之線材 (c)本創作之拉開過程三 請參閱第1、2及4C圖,如圖所示 M304830 18繼續向外拉開帶動作動體15逆時針旋轉的同時,滾動單元Μ 在外軌區161c移動。 (d) 本創作之定位過程—A limiting slot is provided, and a slit is provided at both ends of the slot of the ship, so that the rolling unit can stably reciprocate in the limiting slot, and the guide rail can also be arranged on the lower casing, and the aforementioned rolling is convenient. Collect and organize the wire. And the foregoing limiting slot can also be disposed on the actuating body. The above object of the present invention, its structure and the structure of the above, will be explained in accordance with the preferred embodiment of the drawings. [Embodiment] This creation provides an "automatic positioning and retracting structure". Please refer to Figures 1 to 4G for the guidance of the guide on the lower casing and the limit groove on the actuator. As shown in FIGS. 1 and 2, the embodiment mainly includes an upper casing 1A, a first elastic unit 12, a rolling unit 14, a wire 18, an actuator 15, and a lower casing 16. The upper housing 11 is provided with a first positioning portion 111, and the lower housing 16 is provided with a guide rail 161 for moving the rolling unit 14, wherein the guide 161 is provided with a positioning area 161a, an inner rail area 161b and an outer portion. The 161c, and the appropriate position between the inner 161b and the outer circumstance is provided with a displacement area 161d, and the positioning area 161a is connected to the inner 161b. Referring to FIGS. 1 and 2, the actuating body 15 includes a second positioning portion 151, M3 0483 限 a limiting groove 152, wherein the second positioning portion 151 is for the first elastic unit 12 to be fixed at one end of the first elastic soap. The other end of the TL 12 is fixed to the first positioning portion of the upper casing η. The slits 152a, 152b, and 152c are respectively disposed at the middle of the limiting groove 152 and at the ends of the two ends, and the common rolling unit 14 is stably positioned in the limiting groove 152 to read the second and third figures, as shown in the figure. The wire 18 is fixed around the actuator, and the rolling unit 14 is placed in the limiting groove 152. When the moving body and the lower casing 16 are to be engaged with each other, the rolling unit 14 must be placed in the lower casing 16 Finally, the upper casing Ή and the lower casing 16 are fixed to each other. . Referring to the first and second ® again, as shown in the figure, the slits (152a, 152b, 152c) provided in the limiting groove 152 have very important functions, wherein the characteristics of the slit dislocation are: when the rolling unit 14 rolls in the guide 161 of the lower casing 16 and abuts against the limit 彳0 152. 4' The plate on both sides of the slit provides both two/bucket-up reaction forces' and the two different directions of force The rolling unit 14 is directed to the guide rail 61 of the lower casing 16 for the purpose of restricting the regular movement of the rolling element 14 to restrict the reciprocating movement of the rolling unit 14 only in the limiting groove 152, and to make the aforementioned two The _ force in different directions adjusts the force of the guide 161 'f to the reaction force ' to ensure that the rolling scale 14 can only move stably between the limit slot 1 and the guide 161; The characteristics of the slits (i52a, 152〇) are such that the force of the two different directions can be applied to the extent of the reaction force and the extent to which the rolling unit 14 is allowed to abut against the limiting groove 152, that is, when the rolling unit μ passes through The moment d of the product d or entering the clamping zone 161a or leaving the positioning zone 161a allows the rolling The single it 14 Lin Lin _ 161 miscellaneous, at this time cut the M304830 port 152b on both sides of the board will be inclined by the slit (152a, 152c) a buffer effect angle, and control this angle change, through The length of the slits (152a, 152c) is adjusted. In addition, the reaction force exerted by the plates on both sides of the cut surface 152b is a kind of spring force, so when the rolling unit 14 moves in the guide 161, the guide is not guided. The 161 is worn and the 疋 generates a resistance of the stagnation point. Therefore, when the rolling unit Μ is entering the change, the supporting force of the 161d __ bit region 161d is adjusted according to the moving state of the rolling unit 14. This above-mentioned inner valley will enable the creation to achieve the purpose of fixing or retracting smoothly in the following operations. (a) The process of opening the creation is as follows: Figure 1 2 and 4A The wire 18 on both sides is pulled outwardly and the moving body 15 rotates counterclockwise, and the rolling unit μ moves in the inner region 161b. (D) For the opening process of the creation, please refer to the figures 1, 2 and 4B. As shown in the figure, when the wire 18 on both sides of the creation continues to pull outward While the moving body π w pulls the needle, the rolling unit 14 enters the outer holding area 161c by the inner holding area 161b through the displacement area κιd who ια (at this time, due to the action of the limiting groove 152 of the operating body 15, the bearing _ feet The exhibition was carried out in the Moss 161.) When the wire on both sides of the creation (c) The opening process of the creation is shown in Figures 1, 2 and 4C, as shown in the figure M304830 18 continues The rolling unit 移动 is moved in the outer rail portion 161c while the belt moving body 15 is rotated counterclockwise. (d) The positioning process of this creation—
清參閱第1及4D圖,如圖所示,當本創作兩側之線材18 拉開後鬆手帶動作動體15順時針旋轉的同時(此時受第一彈性單 兀12之引導)’滾動單元14由外轨區杞化通過變位區化忉進 入疋位區161a(此時由於作動體15之限位槽152發生作用,使 滾動單元14得以順利的在導執161内移動)。 (e) 本創作之定位過程二 凊荟閱第1及4E圖’如圖所示,當本創作兩侧之線材18 拉開後鬆手受第i性單元12之彈力料,滾鮮元14於定位 區161 a内停止。 ⑺本創作之收線過程 請參閱第i及4F圖,如圖所示,當本創作兩側之線材] 稍微拉開後帶動作動體15逆時針旋轉的同時,滾動單元Μ由另 位區161a通過變位區161d進入内執區16化(此時由於作動邀 15之限賴152發生侧,使滾動單元14得以 161内移動)。 令早’ (9)本創作之收線完成 請參閱第1及4G圖,如圖所示,卷土备丨从 ,受第-彈性單元12之彈力影響帶動作動體 的同蛉,滾動單元14在内軌區161b循環運動。 M304830 清參閱第5至6圖,係為本創作中導執設於作動體上且限位 槽設於下殼體上之較佳實施例,如第5圖所示,其主要包含有上 殼體21、第-彈性單元22、滾動單元24、線材28、作動體% 及下殼體26。 其特彳政在於·該下殼體26上設有限位槽262。如第6圖所 示’此限位槽262中段處及兩端末各設有切口(262a、2咖、 262c) ’以供滾動單元24於限位槽262内穩定地往復滾動。如第 5圖所示,該作動體25上包含有第二定位部251及可供滾動單 元24移動之_252,其中第二定位部251係供第一彈性單元 22 -端固定,第-彈性單元22之另—與上殼體21上所設 之第-定位部211相固定。該導執252具設有定位區252a、内 執區252b及外執區252c,且内軌區252b及外執區252c之間 的適當位置具設有變位區252d,而定位區252a則與内軌區25沙 相接設。而其作動原理如下一個較佳實施例所述。 凊參閱第7至10G圖,係為本創作中導軌設於作動體上且 限位槽設於下殼體上且為單向收線結構之較佳實施例,如第7圖 所示,其主要包含有上殼體31、第一彈性單元32、滾動單元34、 線材38、作動體35及下殼體36。 該下殼體36上設有限位槽362。如第8圖所示,此限位槽 362中段處及兩端末各設有切口(362a、362b、362c),以供滾動 單元34於限位槽362内穩定地往復滾動。如第5圖所示,該作 動體35上包含有第二定位部351及可供滾動單元34移動之導 11 M304830 軌352,其中第二定位部351係供第一彈性單元32 -端固定, 第一彈性單it 32之另-劇與上殼體31上所設之第一定位部 311相固定。該導執352具設有定位區352a、内執區於处及外 軌區352c,且内軌區3521)及外執區35此之間的適當位置具設 有艾位區352d,而定位區352a則與内執區352b相接設。 明參閱第8及9圖,如圖所示,將線材38固定於作動體35 周圍,再將滚動單it 34置於限位槽362中,當作動體35與下 又月丑36即將相互接合時,滚動單元34必須置入下殼體之導 執361内,最後再將上殼體31與下殼體邡相互固接。 基此,上述内容將使得本創作在下列操作過程中順利的達到 固定或捲收之目的。 (a) 本創作之拉開過程一 。月芩閱第7、8及1〇a圖,如圖所示,當本創作之線材38 向外拉開帶動作動體35逆時針旋轉的同時,滾動單元34在内執 區352b移動。 (b) 本創作之拉開過程二 。月芩閱第7、8及1〇B圖,如圖所示,當本創作兩側之線材 38繼續向外拉開帶動作動體35逆時針旋轉的同時,滾動單元34 由内執區352b通過變位區352d進入外執區352c(此時由於下殼 體36之限位槽362發生作用,使滾動單元34得以順利的在導 轨362内移動)。 (c) 本創作之拉開過程三 12 M304830 ❼閱第7 8及10C圖,如圖所示,當本創作兩側之線材 38繼續向外拉開帶動作動體35逆時針旋轉的同時,滾動單元糾 在外執區352c移動。 (d) 本創作之定位過程— 請參閱第7、8及1〇D圖,如圖所示,當本創作兩側之線材 38拉開後鬆手帶動作動體35順時針旋轉的同時(此時受第一彈 !·生單元32之引$),滾動單元%由外執區啦。通過變位區啦d 進入定位區352a(此時由於下殼體36之限位槽362發生作用, 使滚動單元34得以順利的在導執362内移動)。 (e) 本創作之定位過程二 明參閱第7、8及1〇e圖,如圖所示,當本創作兩側之線材 38拉開後鬆手受第一彈性單元32之彈力影響,滾動單元%於 疋位區352a内停^止。 ⑺本創作之收線過程 請參閱第7、8及1〇F圖,如圖所示,當本創作兩側之線材 38稍微拉開後帶動作動體35逆時針旋轉的同時,滾動單元 由定位區352a通過變位區352d進入内轨區35处(此時由於下殼 體36之限位槽362發生作用,使滾動單元34得以順利的在^ 執362内移動)。 (g)本創作之收線完成 請參閱第7、8及10GB1 ’如圖所示,當本創作兩側之線材 38鬆手後受第-彈性單元32之彈力影響帶動_體%順時針 13 M304830 旋轉的同時,滾動單元34在内軌區352b循環運動。 請參閱S 11 i 12圖,係為本創作中導軌設於作動體上且限 位槽設於下殼體上域單向⑽結構之較佳實關,如第^圖 所不’其主要包含有上殼體41、第—彈性單元42、滾動單元44、 線材48、作動體45及下殼體46。其特徵在於:該上殼體41上 设有第-定位部411,該下殼體46上設有可供滾動單元44移動 之導執-461,其中該導軌461具設有定位區461a、内軌區奶化 及外執區461c,且内執區461b及外執區461c之間的適當位置 具設有變位區461d,而定位區461a則與内軌區46化相接設。 稱動體45上包含有第二定位部451、限位槽452(如第12圖 所示),其中第二定位部451係供第一彈性單元42 一端固定,第 -隹性單元342之另-端則與上殼體41之第—定位部州相固 疋(如第12圖所示)。如第12圖所示,該限位槽452中段處及兩 端末各設有切π (452a、452b、452c),以供滾動單元44於限位 槽452内穩定地往復滾動。而其作動原理如第彳至4G圖所示之 較佳實施例所述。 嗣,由上述之說明,而將本創作與先前技術作一比較,當可 得知本創作誠具有下列所述之優點及功效: ⑴當滾動單元通過變健之高度差時,彻切0兩側的板 體藉由切口傾斜一具有缓衝效果的角度,以使滾動單元可在導軌 中順利滑動。 (2)本創作中將導軌設於下殼體上,並將可於導執中移動之 Μ 川4830 機構設於作動體上,盥羽 標準化,一白〇、、、°構相較,由於下殼體之厚度幾乎已 鈿描大部份之收線模 作將可於導財移動之機構〜下_之厚料會太厚,故本創 當然較習知結構大。“於作動體上,其機構可發揮的空間 =本創作中切口兩_板體所施以之反作用力為一種彈性 力’故可降低下殼體之導執的磨損。 ⑷本創作結構簡單、組裝容易、加工成本低、材料成本低, 雜的加工程序或組裝步驟即可完成。 味 所述本創作所提供之—種「自動定位收線結構」,確 $合准予專利之要件’爰依法提出專利申請,祈請惠予專利, 貫為感禱。 准乂上所述者’僅係本創作之較佳可行之實施例而已,舉凡 利用本創作上4之方法、雜、構造、裝置所為之變化,皆應包 含於本案之權利範圍内。 【圖式簡單說明】 第1圖為本創作中導執設於下殼體上且限位槽設於作動體上之 立體分解示意圖; 第2圖為本創作中導轨設於下殼體上且限位槽設於作動體上之 另一立體分解示意圖; 第3圖為本創作中導執設於下殼體上且限位槽設於作動體上之 立體組合示意圖; 15 M304830 第4A圖為本創作中導執設於下殼體上且限位槽設於作動體上 之拉開過程且滚動單元在内執區之作動示意圖; 第4B圖為本創作中導執設於下殼體上且限位槽設於作動體上 之拉開過程且滚動單元進入外執區之作動示意圖; 第4C圖為本創作中導執設於下殼體上且限位槽設於作動體上 之拉開過程且滾動單元在外軌區循環之作動示意圖; 第4D圖為本創作中導執設於下殼體上且限位槽設於作動體上 之拉開後鬆手定位過程且滾動單元進入定位區之作 動示意圖; 第4E圖為本創作中導執設於下殼體上且限位槽設於作動體上 之拉開後鬆手定位過程且滾動單元停在定位區之作 動示意圖; 第4F圖為本創作中導軌設於下殼體上且限位槽設於作動體上 之拉開後鬆手收線過程且滾動單元進入内軌區之作 動示意圖; 第4G圖為本創作中導執設於下殼體上且限位槽設於作動體上 之票々手後收線完成且滾動單元進入内軌區之作動示 意圖; 第5圖為本創作中導執設於作動體上且限位槽設於下殼體上之 立體分解示意圖; 第6圖為本創作中導轨設於作動體上且限位槽設於下殼體上之 另一立體分解示意圖; M304830 第7圖為本創作中導執設於作動體上且限位般於下殼體上且 為單向收線結構之立體分解示意圖; 第8圖為本創作中導軌設於作動體上且限位槽設於下殼體上且 為單向收線結構之另一立體分解示意圖; 第9圖為本創作中導軌設於作動體上且限位槽設於下殼體上且 為單向收線結構之立體組合示意圖; 第 目$本創作中導執設於作動體上且限位槽設於下殼體 上單肖H纟續之拉騎程且滚動單元在内執 區之作動示意圖; 第 目林創作中導執設於作動體上且限位槽設於下殼體 上且為單向收線結構之拉開過程且滾動單元進入外 軌區之作動示意圖; 第 目為本創作中導執設於作動體上且限位槽設於下殼體 上且為單向收線結構之拉開過程且滾動單元在外執 區循環之作動示意圖; 第 目林創作中導軌設於作動體上且限位槽設於下殼體 ^且為單向收線結構之拉開後鬆手定㈣程且滾動 單元進入定位區之作動示意圖; 第1〇E圖為本創作中導執設於作動體上且限位槽設於下殼體 且為單向收線結構之拉開後鬆手定位過程且滾動 ^ I元停在定位區之作動示意圖; 第1〇F _為本_巾導軌辦作域上球位槽設於下殼體 17 M304830 上且為單向收線結構之拉開後鬆手收線過程且滾動 單元進入内執區之作動示意圖; 第10G目為本創作中導執設於作動體上且限位槽設於下殼體 上且為單向收線結構之鬆手後收線完成且滾動單元 進入内執區之作動示意圖; 第11圖林創作中導執設於下殼體上且限位槽設於作動體上 且為單向收線結構之立體分解示意圖; 第12圖丨本創作中導軌設於下殼體上且限位槽設於作動體上 且為單向收線結構之另一立體分解示意圖;。 【主要元件符號說明】 11 · ••上殼體 111 · · •第一定位部 12 · ••第一彈性單元 14 · · •滾動單元 15 · ••作動體 151 · · •第二定位部 152 · ••限位槽 152a· · •切口 152b · ••切口 152c·- •切口 16 · ••下殼體 161 .. •導執 161a · ••定位區 161b · · •内執區 161c · ••外軌區 161d · · •變位區 18 · ••線材 21 · ••上殼體 211 · · •第一定位部 22 . ••第一彈性單元 24 · · •滾動單元 18 M304830Referring to Figures 1 and 4D, as shown in the figure, when the wire 18 on both sides of the creation is pulled apart, the hand movement 15 is rotated clockwise (at this time guided by the first elastic single 12). 14 is transformed from the outer rail region into the clamp region 161a by the displacement zone (at this time, the scroll unit 14 is smoothly moved within the guide 161 due to the action of the stopper groove 152 of the actuator 15). (e) The positioning process of this creation is as follows: Figure 1 and Figure 4E. As shown in the figure, when the wire 18 on both sides of the creation is pulled open, the elastic force of the i-th element 12 is released. The positioning area 161a stops. (7) Refer to the i and 4F drawings for the winding process of this creation. As shown in the figure, when the wire on both sides of the creation is slightly opened, the moving body 15 is rotated counterclockwise, and the rolling unit is rotated by the other position 161a. Through the displacement zone 161d, the internal control zone 16 is entered (at this time, the scrolling unit 14 is moved within the 161 by the action of the activation 15).令早' (9) Completion of the creation of this creation, please refer to Figures 1 and 4G. As shown in the figure, the reeling is affected by the elastic force of the first-elastic unit 12, and the rolling unit 14 The inner rail region 161b is circulated. M304830 is a preferred embodiment of the present invention in which the guide is disposed on the actuator and the limiting slot is disposed on the lower casing. As shown in FIG. 5, it mainly includes an upper casing. The body 21, the first-elastic unit 22, the rolling unit 24, the wire 28, the actuator %, and the lower casing 26. The special rule is that the lower casing 26 is provided with a limiting groove 262. As shown in Fig. 6, the slits (262a, 2, 262c) are provided at the middle of the limit groove 262 and at the ends of the two ends for the rolling unit 24 to stably reciprocate in the limit groove 262. As shown in FIG. 5, the actuating body 25 includes a second positioning portion 251 and a 252 for moving the rolling unit 24, wherein the second positioning portion 251 is for the first elastic unit 22-end fixed, first-elastic The unit 22 is further fixed to the first positioning portion 211 provided on the upper casing 21. The guide 252 is provided with a positioning area 252a, an inner holding area 252b and an outer holding area 252c, and a suitable position between the inner rail area 252b and the outer holding area 252c is provided with a displacement area 252d, and the positioning area 252a is The inner rail zone 25 is connected to the sand phase. The principle of its operation is as follows in a preferred embodiment. Referring to Figures 7 to 10G, the preferred embodiment of the present invention is that the guide rail is disposed on the actuating body and the limiting slot is disposed on the lower casing and is a unidirectional wire take-up structure, as shown in Fig. 7, Mainly includes an upper casing 31, a first elastic unit 32, a rolling unit 34, a wire 38, an actuating body 35, and a lower casing 36. A limiting slot 362 is defined in the lower housing 36. As shown in Fig. 8, a slit (362a, 362b, 362c) is provided at the middle of the limiting groove 362 and at the ends of the two ends for the rolling unit 34 to stably reciprocate in the limiting groove 362. As shown in FIG. 5, the actuating body 35 includes a second positioning portion 351 and a guide 11 M304830 rail 352 for moving the rolling unit 34. The second positioning portion 351 is for fixing the first elastic unit 32-end. The other one of the first elastic sheets is fixed to the first positioning portion 311 provided on the upper casing 31. The guide 352 is provided with a positioning area 352a, an inner holding area and an outer rail area 352c, and an appropriate position between the inner rail area 3521) and the outer holding area 35 is provided with an Ai area 352d, and the positioning area 352a is connected to the inner zone 352b. Referring to Figures 8 and 9, as shown, the wire 38 is fixed around the actuator 35, and the rolling single it 34 is placed in the limiting slot 362, as the moving body 35 and the next ugly 36 will be mutually When engaged, the rolling unit 34 must be placed in the guide 361 of the lower casing, and finally the upper casing 31 and the lower casing 邡 are fixed to each other. Based on this, the above content will enable the creation to achieve the purpose of fixing or retracting smoothly in the following operations. (a) The opening process of this creation. Referring to Figures 7, 8, and 1a, as shown in the figure, while the wire 38 of the present creation is pulled outwardly, the action unit 35 is rotated counterclockwise, and the rolling unit 34 is moved in the inner region 352b. (b) The opening process of this creation. Referring to Figures 7, 8 and 1B, as shown, while the wire 38 on both sides of the creation continues to pull outwardly with the action body 35 rotated counterclockwise, the rolling unit 34 passes through the inner zone 352b. The displacement zone 352d enters the outer zone 352c (at this time, due to the action of the limit groove 362 of the lower casing 36, the rolling unit 34 is smoothly moved within the guide rail 362). (c) The opening process of the creation 3 12 M304830 Referring to Figures 7 8 and 10C, as shown in the figure, when the wire 38 on both sides of the creation continues to be pulled outwardly, the action body 35 is rotated counterclockwise, and scrolls. The unit is moved in the outer zone 352c. (d) The positioning process of this creation - please refer to Figures 7, 8, and 1D. As shown in the figure, when the wire 38 on both sides of the creation is pulled open, the hand movement 35 is rotated clockwise (at this time). Subject to the first bomb! The birth unit 32 is led by $), and the rolling unit % is from the outer zone. The positioning zone 352a is entered through the displacement zone d (at this time, since the limiting groove 362 of the lower casing 36 acts, the rolling unit 34 can be smoothly moved within the guide 362). (e) The positioning process of this creation is shown in Figures 7, 8 and 1〇e. As shown in the figure, when the wire 38 on both sides of the creation is pulled open, the loose hand is affected by the elastic force of the first elastic unit 32, and the rolling unit % stops in the 疋 area 352a. (7) Refer to Figures 7, 8, and 1F for the winding process of this creation. As shown in the figure, when the wire 38 on both sides of the creation is slightly opened, the moving unit 35 is rotated counterclockwise, and the rolling unit is positioned. The zone 352a enters the inner rail zone 35 through the displacement zone 352d (at this time, due to the action of the limit groove 362 of the lower casing 36, the rolling unit 34 is smoothly moved within the control 362). (g) For the completion of the completion of this creation, please refer to the 7th, 8th and 10GB1 'As shown in the figure, when the wire 38 on both sides of the creation is released, it is affected by the elastic force of the first-elastic unit 32. _ Body% clockwise 13 M304830 While rotating, the scroll unit 34 circulates in the inner rail region 352b. Please refer to the S 11 i 12 diagram, which is the best implementation of the one-way (10) structure in which the guide rail is arranged on the actuating body and the limiting slot is arranged on the lower casing. There are an upper casing 41, a first elastic unit 42, a rolling unit 44, a wire 48, an actuating body 45, and a lower casing 46. The upper housing 41 is provided with a first positioning portion 411, and the lower housing 46 is provided with a guiding-461 for moving the rolling unit 44, wherein the guiding rail 461 is provided with a positioning area 461a and an inner portion. The rail zone milking and outer zone 461c, and the appropriate position between the inner zone 461b and the outer zone 461c are provided with a displacement zone 461d, and the location zone 461a is connected to the inner rail zone 46. The locating body 45 includes a second positioning portion 451 and a limiting slot 452 (as shown in FIG. 12). The second positioning portion 451 is for fixing one end of the first elastic unit 42 and the other of the first elastic unit 342. The end is fixed to the state of the first positioning portion of the upper casing 41 (as shown in Fig. 12). As shown in Fig. 12, a cut π (452a, 452b, 452c) is provided at the middle of the limit groove 452 and at both ends to allow the rolling unit 44 to stably reciprocate in the limit groove 452. The principle of actuation is as described in the preferred embodiment shown in Figures 4G.嗣, from the above description, and compare this creation with the prior art, when you can know that this creation has the following advantages and effects: (1) When the rolling unit passes the height difference of the health, it is completely The side plate is inclined by the slit to have a cushioning angle so that the rolling unit can smoothly slide in the guide rail. (2) In this creation, the guide rail is set on the lower casing, and the mechanism of the Kagawa 4830, which can be moved in the guide, is set on the actuating body, and the feathers are standardized, and a white 〇, ,, and The thickness of the lower casing has almost been traced. Most of the winding molds will be able to move in the mechanism of the guide. The thick material will be too thick, so the creation is of course larger than the conventional structure. "On the working body, the space that the mechanism can play = the reaction force exerted by the two slabs in the creation is an elastic force', so the wear of the guide of the lower casing can be reduced. (4) The creation structure is simple, Easy assembly, low processing cost, low material cost, and complicated processing procedures or assembly steps can be completed. The “automatic positioning and closing structure” provided by this creation is indeed a patent for the patent. Make a patent application, pray for a patent, and pray for it. The above description is only a preferred embodiment of the present invention, and any changes, methods, structures, and devices used in the present invention are included in the scope of the present invention. [Simple description of the drawing] Fig. 1 is a perspective exploded view of the guide set on the lower casing and the limit groove is arranged on the actuating body; Fig. 2 is a schematic view of the guide rail provided on the lower casing And another three-dimensional exploded view of the limiting slot is disposed on the actuating body; FIG. 3 is a three-dimensional assembled schematic diagram of the guide set on the lower casing and the limiting slot is disposed on the actuating body; 15 M304830 4A For the creation of the guide on the lower casing and the limit groove is set on the actuating body and the rolling unit is operated in the inner zone; the fourth drawing is that the guide is set in the lower shell The action diagram of the body and the limiting slot is set on the actuating body and the rolling unit enters the outer holding zone; the fourth drawing shows that the guiding device is arranged on the lower casing and the limiting slot is arranged on the actuating body The drawing process of the upper opening process and the rolling unit circulates in the outer rail area; the 4th drawing is the loose positioning and the rolling unit of the guide set on the lower casing and the limiting groove is arranged on the actuating body Actuation diagram of entering the positioning area; Figure 4E shows the guide in the creation is set on the lower casing And the limiting slot is arranged on the actuating body to release the positioning process and the rolling unit stops in the positioning area; FIG. 4F shows that the guide rail is arranged on the lower casing and the limiting slot is arranged on the actuating body. After the pull-opening process, the rolling unit enters the inner rail zone, and the 4G diagram is the guide that is set on the lower casing and the limit slot is set on the actuating body. The schematic diagram of the operation of the rolling unit entering the inner rail area is completed; the fifth drawing is a three-dimensional exploded schematic view of the guide set on the actuating body and the limiting slot is disposed on the lower casing; Another three-dimensional exploded view of the actuating body and the limiting slot is disposed on the lower casing; M304830 Figure 7 is a guide set on the actuating body and the limit is like the lower casing and is one-way. A three-dimensional exploded view of the take-up structure; Figure 8 is another perspective exploded view of the guide rail disposed on the actuating body and the limiting slot is disposed on the lower casing and is a unidirectional wire-retracting structure; The guide rail is disposed on the actuating body and the limiting slot is disposed on the lower casing and Schematic diagram of the three-dimensional assembly of the one-way wire-receiving structure; the first guide in this creation is set on the actuating body and the limit slot is set on the lower casing. The single-drawing H is continuously pulled and the rolling unit is in the inner zone. Schematic diagram of the operation; the guide is set on the actuating body and the limit groove is arranged on the lower casing and is a pulling process of the unidirectional take-up structure and the rolling unit enters the outer rail zone; For the purpose of creating a guide in the creation of the guide body, the guide groove is arranged on the lower casing and is arranged on the lower casing and is a pulling process of the one-way take-up structure and the rolling unit is circulated in the outer control zone; On the actuating body and the limiting groove is arranged in the lower casing ^ and is a schematic diagram of the action of the one-way wire-retracting structure after the opening (four) and the rolling unit enters the positioning zone; The action diagram is set on the actuating body and the limiting slot is disposed in the lower casing and is loosened by the one-way wire-retracting structure, and the rolling movement is stopped in the positioning zone; the first 〇F__ The ball groove on the rail working area is disposed on the lower casing 17 M304830 and is a one-way wire-receiving structure. After the pull-opening process, the rolling unit enters the inner-handling zone and the scrolling unit enters the inner-handling zone; the 10th Gm is the guide set on the actuating body and the limiting slot is disposed on the lower casing and is a one-way wire-receiving structure. After the release of the hand, the rolling unit is completed and the rolling unit enters the inner control zone; in the 11th Tulin creation, the guide is set on the lower casing and the limiting groove is arranged on the actuating body and is a three-dimensional exploded schematic view of the one-way wire-receiving structure. Fig. 12 is another perspective exploded view of the guide rail disposed on the lower casing and the limit groove is disposed on the actuating body and is a unidirectional take-up structure; [Description of Main Components] 11 · • • Upper housing 111 • • First positioning portion 12 • • • First elastic unit 14 • • Rolling unit 15 • • • Actuator 151 • • Second positioning unit 152 • • Limiting groove 152a • • • Cutting 152b • • • Cutting 152c·- • Cutting 16 • • • Lower housing 161 .. • Guide 161a • • • Positioning area 161b • • • Inner area 161c • • • outer rail zone 161d · · • displacement zone 18 • • • wire 21 • • upper casing 211 • • first positioning section 22 • • first elastic unit 24 • • rolling unit 18 M304830
25 · · •作動體 251 · ••第二定位部 252 · · •導執 252a · ••定位區 252b · · •内軌區 252c · ••外執區 252d · · •變位區 26 · ••下殼體 262 · · •限位槽 262a · ——切口 262b · · •切口 262c · • •切口 28 · · •線材 31 · · •上殼體 311 · ••第一定位部 32 · · •第一彈性單元 34 · ••滾動單元 35 · · •作動體 351 · ••第二定位部 352 · · •導執 352a · ••定位區 352b · · •内軌區 352c · ••外執區 352d · · •變位區 36 · ••下殼體 362 · · •限位槽 362a · • •切口 362b · · •切口 362c · ••切口 38 · · •線材 41 · · •上殼體 411 · ••第一定位部 42 · · •第一彈性單元 44 · ••滾動單元 45 · · •作動體 451 · ••第二定位部 452 · · •限位槽 452a · • •切口 452b · · •切口 452c · ••切口 46 · · •下殼體 461 · ••導軌 M304830 461a ···定位區 461b· ··内軌區 461c ···外軌區 461d · · ·變位區 48 · · ·線材25 · · • Actuator 251 • • • Second Positioning Unit 252 • • • Guide 252a • • • Positioning Area 252b • • • Inner Track Area 252c • • • Outer Area 252d • • • Positioning Area 26 • • • Lower housing 262 · · • Limiting groove 262a · - Cutting 262b · · • Cutting 262c · • • Cutting 28 · · • Wire 31 · · • Upper housing 311 · •• First positioning part 32 · · • First elastic unit 34 • •• Rolling unit 35 · · Actuator 351 ·••Second positioning part 352 · · • Guide 352a · ••Positioning area 352b · · • Inner rail area 352c · ••Outgoing area 352d · · • Displacement zone 36 · •• Lower case 362 · · • Limiting groove 362a · • • Notch 362b · · • Notch 362c · •• Notch 38 · · • Wire 41 · · • Upper casing 411 · • • First positioning part 42 • • • First elastic unit 44 • • • Rolling unit 45 • • Actuating body 451 • • • Second positioning part 452 • • • Limiting groove 452a • • • Cutting 452b • • • Cutout 452c · •• Cutout 46 · · • Lower Case 461 · • The guide rail region M304830 461a ··· location area 461b · ·· 461c ··· outer rail region 461D displacement · 48 · wire zone
2020